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Confined Lithium-Sulfur Reactions in Narrow-Diameter Carbon Nanotubes Reveal Enhanced Electrochemical Reactivity.

Publication ,  Journal Article
Fu, C; Oviedo, MB; Zhu, Y; von Wald Cresce, A; Xu, K; Li, G; Itkis, ME; Haddon, RC; Chi, M; Han, Y; Wong, BM; Guo, J
Published in: ACS nano
October 2018

We demonstrate an unusual electrochemical reaction of sulfur with lithium upon encapsulation in narrow-diameter (subnanometer) single-walled carbon nanotubes (SWNTs). Our study provides mechanistic insight on the synergistic effects of sulfur confinement and Li+ ion solvation properties that culminate in a new mechanism of these sub-nanoscale-enabled reactions (which cannot be solely attributed to the lithiation-delithiation of conventional sulfur). Two types of SWNTs with distinct diameters, produced by electric arc (EA-SWNTs, average diameter 1.55 nm) or high-pressure carbon monoxide (HiPco-SWNTs, average diameter 1.0 nm), are investigated with two comparable electrolyte systems based on tetraethylene glycol dimethyl ether (TEGDME) and 1,4,7,10,13-pentaoxacyclopentadecane (15-crown-5). Electrochemical analyses indicate that a conventional solution-phase Li-S reaction occurs in EA-SWNTs, which can be attributed to the smaller solvated [Li(TEGDME)]+ and [Li(15-crown-5)]+ ions within the EA-SWNT diameter. In stark contrast, the Li-S confined in narrower diameter HiPco-SWNTs exhibits unusual electrochemical behavior that can be attributed to a solid-state reaction enabled by the smaller HiPco-SWNT diameter compared to the size of solvated Li+ ions. Our results of the electrochemical analyses are corroborated and supported with various spectroscopic analyses including operando Raman, X-ray photoelectron spectroscopy, and first-principles calculations from density functional theory. Taken together, our findings demonstrate that the controlled solid-state lithiation-delithiation of sulfur and an enhanced electrochemical reactivity can be achieved by sub-nanoscale encapsulation and one-dimensional confinement in narrow-diameter SWNTs.

Duke Scholars

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Published In

ACS nano

DOI

EISSN

1936-086X

ISSN

1936-0851

Publication Date

October 2018

Volume

12

Issue

10

Start / End Page

9775 / 9784

Related Subject Headings

  • Nanoscience & Nanotechnology
 

Citation

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Chicago
ICMJE
MLA
NLM
Fu, C., Oviedo, M. B., Zhu, Y., von Wald Cresce, A., Xu, K., Li, G., … Guo, J. (2018). Confined Lithium-Sulfur Reactions in Narrow-Diameter Carbon Nanotubes Reveal Enhanced Electrochemical Reactivity. ACS Nano, 12(10), 9775–9784. https://doi.org/10.1021/acsnano.7b08778
Fu, Chengyin, M Belén Oviedo, Yihan Zhu, Arthur von Wald Cresce, Kang Xu, Guanghui Li, Mikhail E. Itkis, et al. “Confined Lithium-Sulfur Reactions in Narrow-Diameter Carbon Nanotubes Reveal Enhanced Electrochemical Reactivity.ACS Nano 12, no. 10 (October 2018): 9775–84. https://doi.org/10.1021/acsnano.7b08778.
Fu C, Oviedo MB, Zhu Y, von Wald Cresce A, Xu K, Li G, et al. Confined Lithium-Sulfur Reactions in Narrow-Diameter Carbon Nanotubes Reveal Enhanced Electrochemical Reactivity. ACS nano. 2018 Oct;12(10):9775–84.
Fu, Chengyin, et al. “Confined Lithium-Sulfur Reactions in Narrow-Diameter Carbon Nanotubes Reveal Enhanced Electrochemical Reactivity.ACS Nano, vol. 12, no. 10, Oct. 2018, pp. 9775–84. Epmc, doi:10.1021/acsnano.7b08778.
Fu C, Oviedo MB, Zhu Y, von Wald Cresce A, Xu K, Li G, Itkis ME, Haddon RC, Chi M, Han Y, Wong BM, Guo J. Confined Lithium-Sulfur Reactions in Narrow-Diameter Carbon Nanotubes Reveal Enhanced Electrochemical Reactivity. ACS nano. 2018 Oct;12(10):9775–9784.
Journal cover image

Published In

ACS nano

DOI

EISSN

1936-086X

ISSN

1936-0851

Publication Date

October 2018

Volume

12

Issue

10

Start / End Page

9775 / 9784

Related Subject Headings

  • Nanoscience & Nanotechnology